The valve (1) includes a valve body (10) having a cavity and bearing against a seal (40) provided with a central opening, and a seat (20) movable in the cavity, the seat bearing against the seal in the closed position and being spaced apart from the seal in the open position. The seat has a cavity bearing against the seal in the closed position, and spaced apart from the seal in the open position. A rod (60) is fixed in a non-detachable manner in the cavity, forming a seat/rod assembly, which rod is traversed, in its portion located inside the cavity, by windows (612) that open into the outlet channel, the free end of the rod protruding out of the cavity by passing through the central opening of the seal.

The valve (1) for pressurized container, includes a valve body (10) in which are place placed a spring (20), a valve member (30), and a cup (50) having an outer face (53) and an inner face (54) and being provided with a central opening (52) through which a product outlet rod (31) can pass, the valve body (10) being fixed to the inner face (54) of the cup (50), the valve seal (40) being pressed against the cup while surrounding the central opening (52), and the valve body (10) being fixed to the inner face of the cup (50) by welding.

The valve (1) for pressurized container, includes a valve body (10) in which are place placed a spring (20), a valve member (30), and a cup (50) having an outer face (53) and an inner face (54) and being provided with a central opening (52) through which a product outlet rod (31) can pass, the valve body (10) being fixed to the inner face (54) of the cup (50), the valve seal (40) being pressed against the cup while surrounding the central opening (52), and the valve body (10) being fixed to the inner face of the cup (50) by welding.

The valve cup for pressurized container has an outer face and an inner face and is provided with a peripheral bearing edge (51) for placing the cup on a can, a central opening for the passage of a product outlet rod (31), a descending wall in the continuation of the bearing edge, and a bottom wall between the descending wall and the central opening, which bottom wall comprises at least one frustoconical peripheral portion the outer face of which is concave.

The valve cup for pressurized container has an outer face and an inner face and is provided with a peripheral bearing edge (51) for placing the cup on a can, a central opening for the passage of a product outlet rod (31), a descending wall in the continuation of the bearing edge, and a bottom wall between the descending wall and the central opening, which bottom wall comprises at least one frustoconical peripheral portion the outer face of which is concave.

A method and system for mitigating a malware attack are disclosed herein. A malware detection module iterates over a virtual memory address space associated with a process executing on a computer system. The malware detection module identifies a region of memory likely to be vulnerable to a malware attack. Responsive to identifying the region of memory, a thread hollowing module determines a specific process thread associated with the identified region of memory. The thread hollowing module renders the specific process thread inoperable.

Provided is an injection container capable of relieving an overpressure state which includes a housing having therein an accommodation space for accommodating contents, and having an upper sealing cap for sealing an upper part of the accommodation space; a mounting cup mounted to the upper sealing cap, and having a through hole at a middle part thereof; a stem housing including a mounting portion having a hollow portion therein and mounted to the mounting cup, and a communication flow path for communicating the hollow portion with the accommodating space; a valve stem having one side which passes through the through hole, having another side arranged at the hollow portion so as to be slidable, and having an orifice selectively communicated with the hollow portion by the sliding; and a flow path blocking valve configured to block the communication flow path when an overpressure occurs.

A valve arrangement for dispensing a fluid is proposed. The valve arrangement comprises a valve plate for fixing the valve arrangement to a container, a valve housing and a fixing part for fixing the valve housing to the valve plate. The fixing part is welded with the valve plate. Furthermore, a dispensing apparatus with a container and a valve arrangement as well as a production method are proposed.

A valve arrangement for dispensing a fluid is proposed. The valve arrangement comprises a valve plate for fixing the valve arrangement to a container, a valve housing and a fixing part for fixing the valve housing to the valve plate. The fixing part is welded with the valve plate. Furthermore, a dispensing apparatus with a container and a valve arrangement as well as a production method are proposed.

The diffuser (1) for a pressurized container provided with a valve, in particular for an aerosol generator, includes a base body (10) formed of a concave wall forming a cavity, and having a finger tab (11) intended to be depressed by the user to operate the valve, and a conduit placed in the cavity of the base body (10). The conduit has a first end adapted for cooperating with the valve of the pressurized container, and a second end for the outlet of the product contained in the pressurized container. The outlet conduit and the base body are two distinct parts which are connected together by mechanical fastening. Optionally, the outlet conduit is prevented from rotating relative to the base body.